src/interest.rs - third_party/mio - Git at Google

 use std::num::NonZeroU8;
 use std::{fmt, ops};

 /// Interest used in registering.
 ///
 /// Interest are used in [registering] [`event::Source`]s with [`Poll`], they
 /// indicate what readiness should be monitored for. For example if a socket is
 /// registered with [readable] interests and the socket becomes writable, no
 /// event will be returned from a call to [`poll`].
 ///
 /// [registering]: struct.Registry.html#method.register
 /// [`event::Source`]: ./event/trait.Source.html
 /// [`Poll`]: struct.Poll.html
 /// [readable]: struct.Interest.html#associatedconstant.READABLE
 /// [`poll`]: struct.Poll.html#method.poll
 #[derive(Copy, PartialEq, Eq, Clone, PartialOrd, Ord)]
 pub struct Interest(NonZeroU8);

 // These must be unique.
 const READABLE: u8 = 0b0_001;
 const WRITABLE: u8 = 0b0_010;
 // The following are not available on all platforms.
 #[cfg_attr(
     not(any(
         target_os = "dragonfly",
         target_os = "freebsd",
         target_os = "ios",
         target_os = "macos"
     )),
     allow(dead_code)
 )]
 const AIO: u8 = 0b0_100;
 #[cfg_attr(not(target_os = "freebsd"), allow(dead_code))]
 const LIO: u8 = 0b1_000;

 impl Interest {
     /// Returns a `Interest` set representing readable interests.
     pub const READABLE: Interest = Interest(unsafe { NonZeroU8::new_unchecked(READABLE) });

     /// Returns a `Interest` set representing writable interests.
     pub const WRITABLE: Interest = Interest(unsafe { NonZeroU8::new_unchecked(WRITABLE) });

     /// Returns a `Interest` set representing AIO completion interests.
     #[cfg(any(
         target_os = "dragonfly",
         target_os = "freebsd",
         target_os = "ios",
         target_os = "macos"
     ))]
     pub const AIO: Interest = Interest(unsafe { NonZeroU8::new_unchecked(AIO) });

     /// Returns a `Interest` set representing LIO completion interests.
     #[cfg(target_os = "freebsd")]
     pub const LIO: Interest = Interest(unsafe { NonZeroU8::new_unchecked(LIO) });

     /// Add together two `Interest`.
     ///
     /// This does the same thing as the `BitOr` implementation, but is a
     /// constant function.
     ///
     /// ```
     /// use mio::Interest;
     ///
     /// const INTERESTS: Interest = Interest::READABLE.add(Interest::WRITABLE);
     /// # fn silent_dead_code_warning(_: Interest) { }
     /// # silent_dead_code_warning(INTERESTS)
     /// ```
     #[allow(clippy::should_implement_trait)]
     pub const fn add(self, other: Interest) -> Interest {
         Interest(unsafe { NonZeroU8::new_unchecked(self.0.get() | other.0.get()) })
     }

     /// Removes `other` `Interest` from `self`.
     ///
     /// Returns `None` if the set would be empty after removing `other`.
     ///
     /// ```
     /// use mio::Interest;
     ///
     /// const RW_INTERESTS: Interest = Interest::READABLE.add(Interest::WRITABLE);
     ///
     /// // As long a one interest remain this will return `Some`.
     /// let w_interest = RW_INTERESTS.remove(Interest::READABLE).unwrap();
     /// assert!(!w_interest.is_readable());
     /// assert!(w_interest.is_writable());
     ///
     /// // Removing all interests from the set will return `None`.
     /// assert_eq!(w_interest.remove(Interest::WRITABLE), None);
     ///
     /// // Its also possible to remove multiple interests at once.
     /// assert_eq!(RW_INTERESTS.remove(RW_INTERESTS), None);
     /// ```
     pub fn remove(self, other: Interest) -> Option<Interest> {
         NonZeroU8::new(self.0.get() & !other.0.get()).map(Interest)
     }

     /// Returns true if the value includes readable readiness.
     pub const fn is_readable(self) -> bool {
         (self.0.get() & READABLE) != 0
     }

     /// Returns true if the value includes writable readiness.
     pub const fn is_writable(self) -> bool {
         (self.0.get() & WRITABLE) != 0
     }

     /// Returns true if `Interest` contains AIO readiness
     pub const fn is_aio(self) -> bool {
         (self.0.get() & AIO) != 0
     }

     /// Returns true if `Interest` contains LIO readiness
     pub const fn is_lio(self) -> bool {
         (self.0.get() & LIO) != 0
     }
 }

 impl ops::BitOr for Interest {
     type Output = Self;

     #[inline]
     fn bitor(self, other: Self) -> Self {
         self.add(other)
     }
 }

 impl ops::BitOrAssign for Interest {
     #[inline]
     fn bitor_assign(&mut self, other: Self) {
         self.0 = (*self | other).0;
     }
 }

 impl fmt::Debug for Interest {
     fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
         let mut one = false;
         if self.is_readable() {
             if one {
                 write!(fmt, " | ")?
             }
             write!(fmt, "READABLE")?;
             one = true
         }
         if self.is_writable() {
             if one {
                 write!(fmt, " | ")?
             }
             write!(fmt, "WRITABLE")?;
             one = true
         }
         #[cfg(any(
             target_os = "dragonfly",
             target_os = "freebsd",
             target_os = "ios",
             target_os = "macos"
         ))]
         {
             if self.is_aio() {
                 if one {
                     write!(fmt, " | ")?
                 }
                 write!(fmt, "AIO")?;
                 one = true
             }
         }
         #[cfg(any(target_os = "freebsd"))]
         {
             if self.is_lio() {
                 if one {
                     write!(fmt, " | ")?
                 }
                 write!(fmt, "LIO")?;
                 one = true
             }
         }
         debug_assert!(one, "printing empty interests");
         Ok(())
     }
 }
	use std::num::NonZeroU8;
	use std::{fmt, ops};

	/// Interest used in registering.
	///
	/// Interest are used in [registering] [`event::Source`]s with [`Poll`], they
	/// indicate what readiness should be monitored for. For example if a socket is
	/// registered with [readable] interests and the socket becomes writable, no
	/// event will be returned from a call to [`poll`].
	///
	/// [registering]: struct.Registry.html#method.register
	/// [`event::Source`]: ./event/trait.Source.html
	/// [`Poll`]: struct.Poll.html
	/// [readable]: struct.Interest.html#associatedconstant.READABLE
	/// [`poll`]: struct.Poll.html#method.poll
	#[derive(Copy, PartialEq, Eq, Clone, PartialOrd, Ord)]
	pub struct Interest(NonZeroU8);

	// These must be unique.
	const READABLE: u8 = 0b0_001;
	const WRITABLE: u8 = 0b0_010;
	// The following are not available on all platforms.
	#[cfg_attr(
	not(any(
	target_os = "dragonfly",
	target_os = "freebsd",
	target_os = "ios",
	target_os = "macos"
	)),
	allow(dead_code)
	)]
	const AIO: u8 = 0b0_100;
	#[cfg_attr(not(target_os = "freebsd"), allow(dead_code))]
	const LIO: u8 = 0b1_000;

	impl Interest {
	/// Returns a `Interest` set representing readable interests.
	pub const READABLE: Interest = Interest(unsafe { NonZeroU8::new_unchecked(READABLE) });

	/// Returns a `Interest` set representing writable interests.
	pub const WRITABLE: Interest = Interest(unsafe { NonZeroU8::new_unchecked(WRITABLE) });

	/// Returns a `Interest` set representing AIO completion interests.
	#[cfg(any(
	target_os = "dragonfly",
	target_os = "freebsd",
	target_os = "ios",
	target_os = "macos"
	))]
	pub const AIO: Interest = Interest(unsafe { NonZeroU8::new_unchecked(AIO) });

	/// Returns a `Interest` set representing LIO completion interests.
	#[cfg(target_os = "freebsd")]
	pub const LIO: Interest = Interest(unsafe { NonZeroU8::new_unchecked(LIO) });

	/// Add together two `Interest`.
	///
	/// This does the same thing as the `BitOr` implementation, but is a
	/// constant function.
	///
	/// ```
	/// use mio::Interest;
	///
	/// const INTERESTS: Interest = Interest::READABLE.add(Interest::WRITABLE);
	/// # fn silent_dead_code_warning(_: Interest) { }
	/// # silent_dead_code_warning(INTERESTS)
	/// ```
	#[allow(clippy::should_implement_trait)]
	pub const fn add(self, other: Interest) -> Interest {
	Interest(unsafe { NonZeroU8::new_unchecked(self.0.get() \| other.0.get()) })
	}

	/// Removes `other` `Interest` from `self`.
	///
	/// Returns `None` if the set would be empty after removing `other`.
	///
	/// ```
	/// use mio::Interest;
	///
	/// const RW_INTERESTS: Interest = Interest::READABLE.add(Interest::WRITABLE);
	///
	/// // As long a one interest remain this will return `Some`.
	/// let w_interest = RW_INTERESTS.remove(Interest::READABLE).unwrap();
	/// assert!(!w_interest.is_readable());
	/// assert!(w_interest.is_writable());
	///
	/// // Removing all interests from the set will return `None`.
	/// assert_eq!(w_interest.remove(Interest::WRITABLE), None);
	///
	/// // Its also possible to remove multiple interests at once.
	/// assert_eq!(RW_INTERESTS.remove(RW_INTERESTS), None);
	/// ```
	pub fn remove(self, other: Interest) -> Option<Interest> {
	NonZeroU8::new(self.0.get() & !other.0.get()).map(Interest)
	}

	/// Returns true if the value includes readable readiness.
	pub const fn is_readable(self) -> bool {
	(self.0.get() & READABLE) != 0
	}

	/// Returns true if the value includes writable readiness.
	pub const fn is_writable(self) -> bool {
	(self.0.get() & WRITABLE) != 0
	}

	/// Returns true if `Interest` contains AIO readiness
	pub const fn is_aio(self) -> bool {
	(self.0.get() & AIO) != 0
	}

	/// Returns true if `Interest` contains LIO readiness
	pub const fn is_lio(self) -> bool {
	(self.0.get() & LIO) != 0
	}
	}

	impl ops::BitOr for Interest {
	type Output = Self;

	#[inline]
	fn bitor(self, other: Self) -> Self {
	self.add(other)
	}
	}

	impl ops::BitOrAssign for Interest {
	#[inline]
	fn bitor_assign(&mut self, other: Self) {
	self.0 = (*self \| other).0;
	}
	}

	impl fmt::Debug for Interest {
	fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
	let mut one = false;
	if self.is_readable() {
	if one {
	write!(fmt, " \| ")?
	}
	write!(fmt, "READABLE")?;
	one = true
	}
	if self.is_writable() {
	if one {
	write!(fmt, " \| ")?
	}
	write!(fmt, "WRITABLE")?;
	one = true
	}
	#[cfg(any(
	target_os = "dragonfly",
	target_os = "freebsd",
	target_os = "ios",
	target_os = "macos"
	))]
	{
	if self.is_aio() {
	if one {
	write!(fmt, " \| ")?
	}
	write!(fmt, "AIO")?;
	one = true
	}
	}
	#[cfg(any(target_os = "freebsd"))]
	{
	if self.is_lio() {
	if one {
	write!(fmt, " \| ")?
	}
	write!(fmt, "LIO")?;
	one = true
	}
	}
	debug_assert!(one, "printing empty interests");
	Ok(())
	}
	}